The Benefits of Using Virtual Engine Room 4.8 for Ship's Engine Room Training
Virtual Engine Room 4.8: A Realistic Simulator for Ship's Engine Room Training
If you are a student or a trainee of maritime colleges or training centres, you may be interested in learning how to operate a ship's engine room in a realistic and safe environment. One of the best ways to do that is by using a simulator that can mimic the actual conditions and challenges of a ship's engine room.
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One of such simulators is Virtual Engine Room 4.8 (VER 4.8), a PC-based full mission engine room simulator developed by Dr. Stefan Kluj, a former professor of marine engineering at Gdynia Maritime University in Poland. VER 4.8 is designed to comply with STCW Code and ISM Code standards and has a type approval certificate issued by the classification company.
In this article, we will tell you everything you need to know about VER 4.8, including how to download and install it, how to use it, how to learn from it, and how to compare it with other simulators. By the end of this article, you will have a clear idea of why VER 4.8 is one of the best simulators for ship's engine room training.
How to Download and Install Virtual Engine Room 4.8
Downloading the Demo Version
If you want to try VER 4.8 before buying it, you can download the demo version from the official website of the developer: http://www.ver-online.com. The demo version is a self-running program that shows you the main features and functions of VER 4.8. You can see the user interface, the simulator model, the checklists, the exercises, and the tests. However, you cannot interact with the simulator or change any parameters in the demo version. The demo version runs for about 15 minutes and then closes automatically.
The demo version is free to download and does not require any registration or activation. You just need to download the file (about 200 MB) and run it on your PC. The minimum system requirements for running the demo version are:
Windows XP/Vista/7/8/10 operating system
1 GHz processor
512 MB RAM
1024 x 768 screen resolution
Sound card and speakers
Downloading the Free Student Version
If you are a student of a maritime college or training centre that has a licence for VER 4.8, you can download the free student version from the official website of the developer: http://www.ver-online.com/student-version.html. The free student version is a fully functional simulator that allows you to operate the ship's engine room in different modes and scenarios. You can use the virtual controls, alarms, mimic diagrams, and digital gauges in the simulator. You can also use the integrated checklists, pre-prepared exercises, and fault scenarios in the simulator. You can even take the standardised assessment tests in the simulator and get feedback on your performance.
The free student version is intended for self-study and practice at home or in a computer lab. It is not meant for classroom instruction or assessment by an instructor. The free student version has some limitations compared to the commercial version, such as:
You cannot create your own exercises or scenarios in the simulator.
You cannot print or save your test results or log files.
You cannot access the instructor's manual or other documentation.
You cannot use more than one monitor or projector with the simulator.
You cannot connect more than one PC to form a networked simulator.
The free student version requires a registration code and an activation code to run on your PC. You can get these codes from your instructor or from the developer's website. You also need to have an internet connection to activate the simulator online. The minimum system requirements for running the free student version are:
Windows XP/Vista/7/8/10 operating system
2 GHz processor
1 GB RAM
1280 x 1024 screen resolution
Sound card and speakers
Downloading the Commercial Version
If you are an instructor or a manager of a maritime college or training centre that wants to use VER 4.8 for teaching and assessment purposes, you need to purchase and download the commercial version from the distributor: http://www.marine-simulation.com/ver48.html. The commercial version is a fully functional simulator that allows you to operate and control the ship's engine room in different modes and scenarios. You can use all the features and functions of VER 4.8 in the commercial version, such as:
You can create your own exercises and scenarios in the simulator using a built-in editor.
You can print or save your test results or log files for evaluation and documentation.
You can access the instructor's manual and other documentation for guidance and reference.
You can use more than one monitor or projector with the simulator for better visibility and realism.
You can connect more than one PC to form a networked simulator for team training and communication.
The commercial version requires a licence key and an activation code to run on your PC. You can get these codes from the distributor after purchasing VER 4.8. You also need to have an internet connection to activate the simulator online. The minimum system requirements for running the commercial version are:
Windows XP/Vista/7/8/10 operating system
2 GHz processor
2 GB RAM
1280 x 1024 screen resolution
Sound card and speakers
The commercial version also includes free updates and technical support from the developer and distributor for one year after purchase.</p How to Use Virtual Engine Room 4.8
Starting the Simulator
Once you have downloaded and installed VER 4.8 on your PC, you can start the simulator by double-clicking on the desktop icon or selecting it from the Start menu. You will see a splash screen with the logo and version of VER 4.8, followed by a main menu with four options: Start, Options, Help, and Exit.
If you click on Start, you will see a list of available exercises and scenarios that you can choose from. You can also create your own exercises and scenarios in the commercial version using the editor. You can select an exercise or scenario by clicking on it and then clicking on OK. You will then see a loading screen with a progress bar and some tips and hints.
If you click on Options, you will see a screen where you can adjust the screen resolution and sound options of the simulator. You can choose from four screen resolutions: 800 x 600, 1024 x 768, 1280 x 1024, and 1600 x 1200. You can also choose to enable or disable the sound effects and music of the simulator. You can apply your changes by clicking on OK or cancel them by clicking on Cancel.
If you click on Help, you will see a screen where you can access the user manual and other documentation of VER 4.8. You can also access the developer's website and contact information from this screen. You can close this screen by clicking on OK.
If you click on Exit, you will see a confirmation message asking you if you want to quit the simulator. You can confirm your choice by clicking on Yes or cancel it by clicking on No.
Navigating the User Interface
When you start an exercise or scenario in VER 4.8, you will see the user interface of the simulator, which consists of four main parts: the virtual controls, the alarms, the mimic diagrams, and the digital gauges.
The virtual controls are located at the bottom of the screen and allow you to operate the ship's engine room using your mouse or keyboard. You can use the virtual controls to start and stop the main engine, adjust the speed and load, switch power sources, control auxiliary systems, etc. The virtual controls are divided into four groups: Main Engine Control (MEC), Power Plant Control (PPC), Steam System Control (SSC), and Auxiliary Systems Control (ASC). You can switch between these groups by clicking on their respective tabs or using the F1-F4 keys.
The alarms are located at the top left corner of the screen and alert you to any abnormal or dangerous situations in the ship's engine room. The alarms are divided into three categories: High Priority Alarms (HPA), Medium Priority Alarms (MPA), and Low Priority Alarms (LPA). The alarms are displayed as red, yellow, or green buttons with symbols and text labels. You can acknowledge an alarm by clicking on it or using the spacebar key. You can also mute or unmute all alarms by clicking on the speaker icon or using the M key.
The mimic diagrams are located at the top right corner of the screen and show you the schematic representation of the ship's engine room systems. The mimic diagrams are divided into five groups: Main Engine (ME), Auxiliary Systems (AS), Power Plant (PP), Steam System (SS), and Other Systems (OS). You can switch between these groups by clicking on their respective buttons or using the F5-F9 keys. You can also zoom in or out of a mimic diagram by using the mouse wheel or the + and - keys.
The digital gauges are located at the bottom right corner of the screen and show you the numerical values of various parameters in the ship's engine room systems. The digital gauges are divided into four groups: Main Engine Parameters (MEP), Auxiliary Systems Parameters (ASP), Power Plant Parameters (PPP), and Steam System Parameters (SSP). You can switch between these groups by clicking on their respective buttons or using the F10-F13 keys. Performing Operational Tasks
When you use VER 4.8, you can perform various operational tasks in the ship's engine room using the virtual controls, alarms, mimic diagrams, and digital gauges. You can also use the integrated checklists, pre-prepared exercises, and fault scenarios to guide you through the tasks.
The checklists are located at the left side of the screen and provide you with step-by-step instructions on how to perform different operational tasks such as starting from dead ship conditions, changing speed and load, switching power sources, etc. You can access the checklists by clicking on the checklist icon or using the C key. You can also hide or show the checklists by clicking on the arrow icon or using the H key.
The exercises are located at the right side of the screen and provide you with predefined scenarios that simulate different situations and challenges in the ship's engine room such as normal operation, emergency operation, fault detection and correction, etc. You can access the exercises by clicking on the exercise icon or using the E key. You can also hide or show the exercises by clicking on the arrow icon or using the H key.
The fault scenarios are located at the bottom left corner of the screen and provide you with random faults that may occur in the ship's engine room systems such as leaks, blockages, failures, etc. You can access the fault scenarios by clicking on the fault icon or using the F key. You can also enable or disable the fault scenarios by clicking on the switch icon or using the S key.
Taking Standardised Assessment Tests
When you use VER 4.8, you can also take standardised assessment tests that measure your knowledge and skills in operating and controlling the ship's engine room. The tests are designed to comply with STCW Code and ISM Code standards and have a type approval certificate issued by the classification company.
The tests are located at the top of the screen and provide you with 14 different tests that cover various topics and levels of difficulty such as basic knowledge, advanced knowledge, troubleshooting, etc. You can access the tests by clicking on the test icon or using the T key. You can also start or stop a test by clicking on the start/stop icon or using the spacebar key.
When you take a test, you will see a timer that shows you how much time you have left to complete the test. You will also see a score that shows you how many points you have earned so far. You will earn points for performing correct actions and lose points for performing incorrect actions in the simulator. You will also see a feedback that shows you what actions you have performed and whether they were correct or incorrect.
When you finish a test, you will see a summary that shows you your final score, your percentage of correct actions, your percentage of incorrect actions, and your pass/fail status. You will also see a detailed report that shows you all your actions and feedback during the test. You can print or save your test results or log files for evaluation and documentation in the commercial version. How to Learn from Virtual Engine Room 4.8
Understanding the Simulator Model
One of the main benefits of using VER 4.8 is that it allows you to learn about the ship's engine room systems in a realistic and detailed way. VER 4.8 is based on a simulator model that represents a typical medium-sized cargo ship with a slow-speed diesel engine as the main propulsion unit and a diesel generator set as the auxiliary power source. The simulator model also includes various auxiliary systems such as fuel oil system, lubricating oil system, cooling water system, compressed air system, etc. The simulator model also includes a steam system that provides steam for heating, tank cleaning, and turbo generator.
You can learn about the simulator model by using the mimic diagrams, the digital gauges, and the user manual of VER 4.8. The mimic diagrams show you the schematic representation of the ship's engine room systems and their components. The digital gauges show you the numerical values of various parameters such as pressure, temperature, flow, level, etc. The user manual provides you with detailed information and explanations about the simulator model and its components.
You can also learn about the simulator model by performing different operational tasks and observing how the simulator model responds to your actions and changes in the environment. You can see how the simulator model behaves in normal and abnormal situations, how it reacts to different faults and failures, and how it affects the performance and efficiency of the ship's engine room.
Practicing Typical Ship's Engine Room Operating Routines
Another benefit of using VER 4.8 is that it allows you to practice different operating routines that are typical for a ship's engine room. VER 4.8 provides you with integrated checklists, pre-prepared exercises, and fault scenarios that simulate different situations and challenges that you may encounter in a real ship's engine room. You can use these tools to practice different operating routines such as:
Starting from dead ship conditions: This routine involves preparing and starting the ship's engine room systems from a state where no power or pressure is available.
Changing speed and load: This routine involves adjusting the speed and load of the main engine and the auxiliary systems according to the ship's operational requirements.
Switching power sources: This routine involves switching between different power sources such as diesel generator, turbo generator, or shore power.
Performing maintenance and repair: This routine involves performing routine or preventive maintenance and repair tasks on the ship's engine room systems and components.
Preparing for port arrival or departure: This routine involves preparing the ship's engine room systems for entering or leaving a port.
Dealing with emergency situations: This routine involves dealing with emergency situations such as fire, flooding, blackout, etc.
You can practice these routines by following the instructions in the checklists, performing the actions in the exercises, or solving the problems in the fault scenarios. You can also create your own routines in the commercial version using the editor. You can practice these routines individually or in a team using the networked simulator option.
Training in Corrective Action When Faults Occur
A third benefit of using VER 4.8 is that it allows you to train in corrective action when faults occur in the ship's engine room systems. VER 4.8 provides you with random fault scenarios that may occur in different systems such as leaks, blockages, failures, etc. You can also create your own fault scenarios in the commercial version using the editor.
You can train in corrective action by identifying, diagnosing, and fixing the faults that occur in the simulator. You can use the alarms, mimic diagrams, digital gauges, and user manual to help you with this task. You can also use the feedback feature to get hints and suggestions on how to solve the faults.
You can train in corrective action individually or in a team using the networked simulator option. You can also take standardised assessment tests to measure your knowledge and skills in troubleshooting and fault correction.
How to Compare Virtual Engine Room 4.8 with Other Simulators
Comparing Features and Benefits
If you want to compare VER 4.8 with other simulators for ship's engine room training, you need to consider their features and benefits. Some of the features and benefits that make VER 4.8 stand out from other simulators are:
VER 4.8 is based on a realistic and detailed simulator model that represents a typical medium-sized cargo ship with a slow-speed diesel engine as the main propulsion unit and a diesel generator set as the auxiliary power source.
VER 4.8 complies with ST CW Code and ISM Code standards and has a type approval certificate issued by the classification company.
VER 4.8 provides you with integrated checklists, pre-prepared exercises, fault scenarios, and standardised assessment tests that simulate different situations and challenges in the ship's engine room.
VER 4.8 allows you to create your own exercises and scenarios using a built-in editor in the commercial version.
VER 4.8 allows you to use more than one monitor or projector with the simulator for better visibility and realism.
VER 4.8 allows you to connect more than one PC to form a networked simulator for team training and communication.
VER 4.8 provides you with free updates and technical support from the developer and distributor for one year after purchase.
Some of the other simulators that you can compare VER 4.8 with are:
Turbo Diesel: This is a PC-based simulator that simulates a medium-speed diesel engine as the main propulsion unit and a diesel generator set as the auxiliary power source. It has a simple user interface and basic features. It does not comply with STCW Code or ISM Code standards and does not have a type approval certificate. It does not provide any checklists, exercises, scenarios, or tests. It does not allow you to create your own exercises or scenarios. It does not allow you to use more than one monitor or projector with the simulator. It does not allow you to connect more than one PC to form a networked simulator. It does not provide any updates or technical support.
Engine Room Console: This is a PC-based simulator that simulates a slow-speed diesel engine as the main propulsion unit and a diesel generator set as the auxiliary power source. It has a realistic user interface and advanced features. It complies with STCW Code and ISM Code standards and has a type approval certificate. It provides some checklists, exercises, scenarios, and